The C Series brings KEF’s audio technology and ‘know how’ to affordable hi-fi loudspeakers. Both beautifully styled and incredibly versatile, the C Series perform as well as speakers twice their price.

Styled to match your TV, KEF’s ultra-slim V700/V720W digital hi-fi soundbar systems allow you to enjoy high fidelity sound without the hassle of adding a new AV receiver and yet another remote control. With simple HDMI connection, no messy cabling and unique, industry-leading driver technology, it’s the easiest and most elegant way to upgrade your TV viewing pleasure.

The perfect match for your TV, KEF’s ultra-slim V300 digital TV sound system allows you to enjoy high fidelity sound without the hassle of adding a complex AV receiver and yet another remote control. With simple HDMI connection, no messy cabling and unique, industry-leading acoustic technology, it’s the easiest way to upgrade your TV viewing pleasure.

Obtaining good bass performance from small speaker boxes has always been the ‘holy grail’ of loudspeaker design. Typically a small box will have less bass performance than a larger one. However, after years of research KEF has overcome this problem with the development of Acoustic Compliance Enhancement (ACE), where activated charcoal, just like in a water filter, is placed inside the loudspeaker cabinet.

Tiny holes in the porous ACE material act like the small air sacks in a lung by absorbing and giving out air molecules as the drive unit moves in and out. This helps the bass driver ‘breathe’ more easily allowing improved bass performance. In fact, a speaker using ACE technology can have the same bass performance as a conventional speaker of twice the size.

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The bass response from a loudspeaker is critically dependent on the internal cabinet volume. If you want good bass extension, to hear all those powerful low notes from organ fundamentals to life-like movie explosions, you need a physically large enclosure. It all comes from the basic physical laws that determine how a conventional bass drive unit interacts with the air inside the cabinet.

ACE technology allows us to circumvent these basic restrictions and gain the freedom to adjust the ‘effective’ internal volume by filling the enclosure with activated carbon.

• Progressively magnified views of an activated carbon granule

ACE works by a process called adsorption – the highly porous carbon granules take in or give out air molecules in response to the change in air pressure caused by the inward and outward movement of the speaker cone. This flow of air molecules is always acting to reduce the internal pressure variations – making the enclosure appear to be much larger than it actually is. The more activated carbon we put into an enclosure the bigger the effective internal volume becomes – up to a point where losses start to dominate. Typically, we can double the internal volume whilst still maintaining a high quality bass roll-off characteristic.

• Reducing enclosure volume whilst maintaining the same bass response

Using ACE to reduce the enclosure volume whilst maintaining the same bass response. The first public demonstration of ACE was based on the RDM monitor - the ACE loaded version maintained the same bass performance with 40% less volume.

The volume increase can be utilised in two main ways: (1) reducing the size of a particular speaker while keeping the performance the same or (2) increasing the bass extension from a given speaker whilst keeping the size the same. In general, it’s a bit of both as we will custom design the bass driver for each application and look for the best overall compromise.

In sound quality terms ACE has some major advantages – principally that it allows us to design a speaker with the bass extension of a reflex system but with the superior transient response of a closed box. In addition to the measurable parameters, the sound quality of ACE enclosures is consistently well liked by audiophiles, with a precise and detailed bass reproduction.

ACE

The tiny holes in the porous ACE material act like the small air sacks in a lung by absorbing and giving out air molecules.